Table 2_Expression and prognostic significance of the m6A RNA methylation regulator HNRNPC in HNSCC.docx by Yulin Zhang (510822)

“…Knockdown of HNRNPC in the HNSCC cell lines HSC-3 and CAL-27 resulted in a significant decrease in proliferation, invasion, and malignant transformation abilities. …”

Table 1_Expression and prognostic significance of the m6A RNA methylation regulator HNRNPC in HNSCC.docx by Yulin Zhang (510822)

“…Knockdown of HNRNPC in the HNSCC cell lines HSC-3 and CAL-27 resulted in a significant decrease in proliferation, invasion, and malignant transformation abilities. …”

Overcoming the Limitations of Transition-Metal Catalysis in the Chemoenzymatic Dynamic Kinetic Resolution (DKR) of Atropisomeric Bisnaphthols by Kun Wang (134525)

“…The racemization mechanism was proposed to involve a radical-anion intermediate, which allows the axial rotation with a dramatic decrease of the rotation barrier.…”

Overcoming the Limitations of Transition-Metal Catalysis in the Chemoenzymatic Dynamic Kinetic Resolution (DKR) of Atropisomeric Bisnaphthols by Kun Wang (134525)

“…The racemization mechanism was proposed to involve a radical-anion intermediate, which allows the axial rotation with a dramatic decrease of the rotation barrier.…”

Schematic of fixture. by Shaheer Ahmed Khan (17797647)

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Experimentation plan. by Shaheer Ahmed Khan (17797647)

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Experimental details. by Shaheer Ahmed Khan (17797647)

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Dimensions of FSW Tool. by Shaheer Ahmed Khan (17797647)

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Fabricated Fixture with labelled view. by Shaheer Ahmed Khan (17797647)

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Dog-bone specimens after tensile testing. by Shaheer Ahmed Khan (17797647)

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Dog-bone specimens before tensile testing. by Shaheer Ahmed Khan (17797647)

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Experimental run of FSW on CNC milling machine. by Shaheer Ahmed Khan (17797647)

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Morphological changes in the testis and epididymis. by Cao Wang (1500691)

“…C & G) PM2.5 rats exhibited sparse germinal layer in the seminiferous tubules, lumenal vacuolation and sperm shedding (black arrow) were observed, and the sperm quantity was significantly decreased. …”

Data used to generate Fig 1. by Pattamaporn Kittayapong (289542)

“…Development of immature stages was observed. For wild-type <i>Ae. aegypti</i>, X-ray irradiation at the doses from 3 Gy decreased the development of the first-instar larvae and increased the development of the third-instar larvae but there was no effect on pupae. …”

Data used to generate Table 6. by Pattamaporn Kittayapong (289542)

“…Development of immature stages was observed. For wild-type <i>Ae. aegypti</i>, X-ray irradiation at the doses from 3 Gy decreased the development of the first-instar larvae and increased the development of the third-instar larvae but there was no effect on pupae. …”

Data used to generate Table 2. by Pattamaporn Kittayapong (289542)

“…Development of immature stages was observed. For wild-type <i>Ae. aegypti</i>, X-ray irradiation at the doses from 3 Gy decreased the development of the first-instar larvae and increased the development of the third-instar larvae but there was no effect on pupae. …”

Data used to generate Fig 3. by Pattamaporn Kittayapong (289542)

“…Development of immature stages was observed. For wild-type <i>Ae. aegypti</i>, X-ray irradiation at the doses from 3 Gy decreased the development of the first-instar larvae and increased the development of the third-instar larvae but there was no effect on pupae. …”

Data used to generate Fig 5. by Pattamaporn Kittayapong (289542)

“…Development of immature stages was observed. For wild-type <i>Ae. aegypti</i>, X-ray irradiation at the doses from 3 Gy decreased the development of the first-instar larvae and increased the development of the third-instar larvae but there was no effect on pupae. …”

Data used to generate Fig 2. by Pattamaporn Kittayapong (289542)

“…Development of immature stages was observed. For wild-type <i>Ae. aegypti</i>, X-ray irradiation at the doses from 3 Gy decreased the development of the first-instar larvae and increased the development of the third-instar larvae but there was no effect on pupae. …”

Data used to generate Fig 6. by Pattamaporn Kittayapong (289542)

“…Development of immature stages was observed. For wild-type <i>Ae. aegypti</i>, X-ray irradiation at the doses from 3 Gy decreased the development of the first-instar larvae and increased the development of the third-instar larvae but there was no effect on pupae. …”